curriculum vitae and analytical memorandum of …

CURRICULUM VITAE AND

ANALYTICAL MEMORANDUM OF SCIENTIFIC PUBLICATIONS

of THEODOROS SIDERIS

DR. CHEMIST

CONTENTS

PART 1: CURRICULUM VITAE ............................................................................... 1

1 GENERAL .................................................................................................................................. 2

1.1 Personal information ................................................................................................................. 2

1.2 Areas of specialization ............................................................................................................... 2

1.3 Brief description of studies and professional career ..................................................................... 2

1.4 Languages ................................................................................................................................ 4

1.5 Computer skills ......................................................................................................................... 5

2 STUDIES ................................................................................................................................... 6

2.1 Brief presentation ..................................................................................................................... 6

2.2 Doctoral degree (PhD) .............................................................................................................. 6

2.3 Diploma thesis .......................................................................................................................... 6

3 TEACHING ACTIVITIES ............................................................................................................ 7

3.1 Teaching of academic courses ................................................................................................... 7

3.2 Teaching of school courses ........................................................................................................ 7

3.3 Teaching of foreign languages ................................................................................................... 7

4 PARTICIPATION IN SEMINARS ............................................................................................... 8

5 SCIENTIFIC WORK................................................................................................................... 9

5.1 Theses ..................................................................................................................................... 9

5.2 Publications in scientific journals (after review) ........................................................................... 9

6 PROFESSIONAL EXPERIENCE ................................................................................................ 10

6.1 Professional activities .............................................................................................................. 10

6.2 Work responsibilities ............................................................................................................... 10

6.3 Professional societies membership ........................................................................................... 10

7 OTHER .................................................................................................................................... 11

PART 2: ANALYTICAL MEMORANDUM OF SCIENTIFIC PUBLICATIONS ............ 12

8 PRESENTATION OF SCIENTIFIC WORK ................................................................................. 13

8.1 Doctoral Thesis ....................................................................................................................... 13

8.2 Graduate thesis ...................................................................................................................... 13

8.3 Publications in scientific journals .............................................................................................. 13

9 CITATIONS ............................................................................................................................. 15

9.1 Brief presentation of citations .................................................................................................. 15

9.2 Number of citations per publication .......................................................................................... 15

9.3 Charts of h-index .................................................................................................................... 15

9.4 Detailed presentation of citations per publication ...................................................................... 17

1 | Curriculum vitae of Theodoros Sideris

PART 1: CURRICULUM VITAE


1 GENERAL

1.1 Personal information

Name Theodoros

Surname Sideris

Father’s name Dimitrios

Address 11, Anaximandrou Str, Patras, 26335, Greece

Telephones (+30) 2610 643902, (+30) 6972124899 (mobile)

E-mails [email protected]

LinkedIn https://gr.linkedin.com/in/theodoros-sideris-4bbab440

Date of birth 09/08/1976

Place of birth Patras, Greece

Nationality Hellenic

Marital status Single

1.2 Areas of specialization

Inorganic Chemistry. Synthesis of Inorganic and Organometallic compounds.

Biology. Creation and study of solid and liquid fungi cultures.

Testing of OPS language codes.

Teaching Chemistry and Physics.

Teaching foreign languages (English and Italian).

1.3 Brief description of studies and professional career

1.3.1 03/2019-today

Patras, Greece

Freelance Translator.

1.3.2 2018-19/06/2019

Patras, Greece

Computer analyst, Support of various groups in documentation and code

testing, INTRACOM S.A., Department of Patras.

1.3.3 2016-σήμερα Patras, Greece

Studies in the Postgraduate Studies Program in Pharmaceutical Sciences and Technology with specialisation in “Industrial Pharmaceutics - Cosmetics”,

University of Patras, School of Health Sciences, Department of Pharmacy.

1.3.4 2008-σήμερα

Patras, Greece

Private lessons (individuals or small groups of persons) in Organic and

Inorganic Chemistry to high school and University students.

1.3.5 2018

Patras, Greece

Seminar: "Good Manufacturing Practice on Cosmetics, Standard ISO 22716:

2007", 2018. The seminar took place at the Department of Chemistry of the

School of Sciences of the University of Patras.

1.3.6 2011-2018

Patras, Greece

Third Line Support Design Maintenance for Ericsson GmbH: MSC (Mobile

Switching Centre) PLM (Product Line Maintenance) and GASUP (Global Application Systems Upgrade Path), INTRACOM S.A., Department of Patras.

1.3.7 2017

Patras, Greece

Seminar: "Lyophilisation of Pharmaceutical Products". The seminar took place

at the Department of Pharmacy of the School of Health Sciences of the University of Patras.

1.3.8 2017 Patras, Greece

Seminar: "Seminar on Occupational Health and Safety". The seminar took place at the Conference and Cultural Center of the University of Patras.

1.3.9 2017

Patras, Greece

Workshop: «Traditional Herbal Medicinal Products: a rough HOW TO guide. /

The European Regulation of Cosmetic Products: what can I claim? / Do you want to cure or beautify? Interactive session and Q/A / Art and science of

Micropropagation». The Workshop took place at the Department of Pharmacy of the School of Health Sciences of the University of Patras.

mailto:[email protected]

https://gr.linkedin.com/in/theodoros-sideris-4bbab440



Diploma KeyCert IT Basic. Knowledge of computer manipulation in objects: (a) word processing, (b) spreadsheets and (c) internet services.


Registered Professional Chemist in Greece. License to Exercise Chemistry Teaching in Tutorial and Homework. EOPPEP (National Organisation for the

Certification of Qualifications and Vocational Guidance) Protocol No.: 64175.


Doctoral degree (PhD), University of Patras, School of Natural Sciences, Department of Chemistry, Division B: Physical Chemistry, Inorganic and

Nuclear Chemistry.

1.3.13 2004-2012

Patras, Greece

PhD Candidate, University of Patras, School of Natural Sciences, Department

of Chemistry, Division B: Physical Chemistry, Inorganic and Nuclear Chemistry.

1.3.14 2007-2011

Patras, Greece

Computer analyst – Upgrade impacts Responsible, Third Line Support Design

Maintenance for Ericsson GmbH: MSC PLM SEPAG (Solution Entry Packaging) and GASUP, INTRACOM S.A., Department of Patras.


Course on “Security Sally-Awareness Training”, INTRACOM S.A., Department of Patras.

1.3.16 2008

Athens, Greeece

Diploma in Italian “CERTIFICATO DI CONOSCENZA DELLA LINGUA ITALIANA,

LIVELLO 5 (CELI 5)”, Università per Stranieri di Perugia.

1.3.17 2006-2007

Patras, Greece

Computer analyst, Third Line Support Design Maintenance for Ericsson

GmbH: MSC PLM AC (Application Correction) Testing Team, INTRACOM S.A., Department of Patras.

1.3.18 2005-2006 Patras, Greece

Teaching and Laboratory assistant for the course Inorganic Chemistry II, (2nd semester), Department of Chemistry, School of Natural Sciences, University

of Patras.

1.3.19 2005-2006 Patras, Greece

Computer analyst – Design and Maintenance of subroutines, Third Line Support Design Maintenance for Ericsson GmbH: MSC PLM SEPAG (Solution

Entry Packaging) and GASUP, INTRACOM S.A., Department of Patras.

1.3.20 2006

Athens, Greece

Diploma in Italian “CERTIFICATO DI CONOSCENZA DELLA LINGUA ITALIANA,

LIVELLO 3 (CELI 3)”, Università per Stranieri di Perugia.

1.3.21 2005 Aachen, Germany

Training on APG40, Operation and Maintenance at the premises of Ericsson GmbH in Herzogenrath, Aachen, Germany.

1.3.22 2005 Aachen, Germany

Training on Global Application Systems Upgrade Path (GASUP) Rules, Methods and Tools at the premises of Ericsson GmbH in Herzogenrath,

Aachen, Germany.

1.3.23 2000-2005 Patras, Greece

Computer analyst, Member of DE (Signalling) Team and DG (Mobile) Team of Ericsson GmbH and Third Line Support Design Maintenance for Ericsson

GmbH: MSC PLM, INTRACOM S.A., Department of Patras.

1.3.24 2002

Patras, Greece

Diploma in Italian PALSO “Certificato Superiore”.

1.3.25 2002

Patras, Greece

Member of Assosiation of Greek Chemists.


Diploma in Chemistry (Specialisation in Food Chemistry), University of Patras, School of Natural Sciences, Department of Chemistry. Certification of

Oenology.

1.3.27 2001

Patras, Greece

Diploma in Italian PALSO “Certificato Intermedio”.

1.3.28 2001 Greece

License to teach English (Protocol No.: Φ.Φρ./4572 (26/09/2001), based on Δ5/12087/218/4-12-2000), granted by the Hellenic Ministry of Education and

Religious Affairs, Culture and Sports, Greece.

1.3.29 2000

Patras, Greece

Seminar: “SOFTWARE ENGINEERING COURSE E4.01”, at the premises of

INTRACOM S.A. in Patras, Greece.


1.3.30 2000 Greece Adequacy in teaching English (Δ5/12087/218/4-12-2000), granted by the Hellenic Ministry of Education and Religious Affairs, Culture and Sports,

Greece.

1.3.31 1995-2002

Patras, Greece

Studies in Chemistry, University of Patras, School of Natural Sciences,

Department of Chemistry.


Diploma in English “Certificate of Proficiency in English”, University of Cambridge”.


Diploma in English “Cambridge University First Certificate in English”.


National admission exams, University of Patras, School of Natural Sciences, Department of Chemistry.

1.3.35 1994

Patras, Greece

National admission exams, Technical University of Heraklion, Department of

Electrology, Spring Semester.

1.3.36 1994

Patras, Greece

4th General Lyceum of Patras, Patras, Greece.

1.4 Languages

1.4.1 Proficiency

UNDERSTANDING SPEAKING WRITING

Verbal Written Spoken interaction Spoken production

Greek Proficient User

Proficient User

Proficient User

Proficient User

Proficient User

English Proficient

User

Proficient

User

Proficient

User

Proficient

User

Proficient

User

Italian Proficient

User

Proficient

User

Proficient

User

Proficient

User

Proficient

User

French Basic User Basic User Basic User Basic User Basic User

1.4.2 Certificates

Greek native

English “Certificate of Proficiency in English, University of Cambridge” (1999)

“Cambridge University First Certificate in English” (12/1995)

Adequacy in teaching English (Δ5/12087/218/4-12-2000), granted by the Hellenic Ministry

of Education and Religious Affairs, Culture and Sports, Greece;

License to teach English (Protocol No.: Φ.Φρ./4572 (26/09/2001), based on

Δ5/12087/218/4-12-2000), granted by the Hellenic Ministry of Education and Religious

Affairs, Culture and Sports, Greece.

Italian CERTIFICATO DI CONOSCENZA DELLA LINGUA ITALIANA: CELI5 (10/11/2008), CELI3 (12/06/2006), Università per Stranieri di Perugia

PALSO: Certificato Superiore (05/2002), Certificato Intermedio (05/2001)

French -


1.5 Computer skills

KeyCert IT Basic (12/2016)

Excellent knowledge of Microsoft Office™ tools (97, 2003, 2007, 2010)

Excellent knowledge of Edml, Sgml.

Excellent knowledge of Microcal Origin 4.0.

Good knowledge of the following operational systems:

– Windows (95, 98, XP, 7, 10) – Linux

– Unix

Professional knowledge of the following programming languages:

– QBasic – PLEX

– SDL – OPS


2 STUDIES

2.1 Brief presentation

2.1.1 Postgraduate Studies Program

2016-today

Postgraduate Studies Program in Pharmaceutical Sciences and Technology with specialisation in “Industrial Pharmaceutics - Cosmetics”, Department of Pharmacy, School of

Health Sciences, University of Patras, Greece.

2.1.2 Doctoral degree (PhD)

2004-2012 PhD Candidate, Department of Chemistry, School of Natural Sciences, University of Patras,

Division B: Physical Chemistry, Inorganic and Nuclear Chemistry, Greece.

2.1.3 Diploma in Chemistry (with Specialisation in Food Chemistry)

1992-2002 Department of Chemistry, School of Natural Sciences, University of Patras, Greece, GPA 7.16/10. Certification of Oenology

2.1.4 Completion of Formal Studies

1994 4th General Lyceum of Patras, Patras, Greece, Graduation Grade: 168/10/20.

2.2 Doctoral degree (PhD)

Title of Doctoral Thesis: “Redox React ions of Arsenic Compounds and Study of Bunsen’s disulfide, Me4As2S2”, with Advisory Committee:

Panagiotis Ioannou, Professor of Department of Chemistry, University of Patras, (Supervisor)

Spyridon Perlepes, Professor of Department of Chemistry, University of Patras.

Gerasimos Tsivgoulis, Assistant Professor of Department of Chemistry, University of Patras.

2.3 Diploma thesis

Title of diploma thesis: “Morphological and Physiological Development of the fungus Aspergillus οryzae with

the use of new substrates. Use of Aspergillus οryzae on the elaboration of starch containing substrates and

the production of microbial protein”, Supervisor: Athanasios Koutinas, Professor of Department of Chemistry, University of Patras. Thesis Grade: 10/10.


3 TEACHING ACTIVITIES

3.1 Teaching of academic courses

2005-2006 Teaching and Laboratory assistant for the course Inorganic Chemistry II (2nd semester),

Department of Chemistry, School of Natural Sciences, University of Patras, Greece.

3.2 Teaching of school courses

2008-today Organic and Inorganic Chemistry. Private lessons (individuals or small groups of persons)

to high school and University students.

2008-today Physics. Private lessons (individuals or small groups of persons) to University students.

2008-today Mathematics. Private lessons (individuals or small groups of persons) to high school students.

3.3 Teaching of foreign languages

2008-today English. Private lessons (individuals or small groups of persons) to beginners (adults or children) and advanced (adults) for preparation for ECPE.

2008-today Italian. Private lessons (individuals or small groups of persons) to beginners (adults).


4 PARTICIPATION IN SEMINARS

2018 Seminar: "Good Manufacturing Practice on Cosmetics, Standard ISO 22716: 2007". The

seminar took place at the Department of Chemistry of the School of Sciences of the

University of Patras.

2017 Seminar: "Lyophilisation of Pharmaceutical Products". The seminar took place at the

Department of Pharmacy of the School of Health Sciences of the University of Patras.

2017 Seminar: "Seminar on Occupational Health and Safety". The seminar took place at the

Conference and Cultural Center of the University of Patras.

2017 Workshop: «Traditional Herbal Medicinal Products: a rough HOW TO guide. / The European Regulation of Cosmetic Products: what can I claim? / Do you want to cure or beautify?

Interactive session and Q/A / Art and science of Micropropagation». The Workshop took place at the Department of Pharmacy of the School of Health Sciences of the University of

Patras.

2005 Seminar of the Red Cross: «First Aid», at the premises of INTRACOM S.A. in Patras, Greece.

2000 Seminar: “SOFTWARE ENGINEERING COURSE E4.01”, at the premises of INTRACOM S.A. in

Patras, Greece.


5 SCIENTIFIC WORK

5.1 Theses

5.1.1 Sideris, T. D., “Redox React ions of Arsenic Compounds and Study of Bunsen’s disulfide, Me4As2S2”.

The thesis is submitted to the Department of Chemistry, School of Natural Sciences, University of Patras, Greece in fulfilment of the requirements for the Degree of Doctor of Philosophy. Supervisor:

Dr. Panagiotis Ioannou, Professor of the Department of Chemistry University of Patras. National Documentation Center, Greece, 2012.

(http://thesis.ekt.gr/thesisBookReader/id/28491#page/1/mode/2up)

5.1.2 Sideris, T. D., “Morphological and Physiological Development of the fungus Aspergillus οryzae with the use of new substrates. Use of Aspergillus οryzae on the elaboration of starch containing

substrates and the production of microbial protein”. The thesis is submitted to e Department of Chemistry, School of Natural Sciences, University of Patras, Greece in fulfilment of the requirements

for the diploma in Chemistry. Supervisor: Dr. A. Koutinas, Professor of the Department of Chemistry

University of Patras, 2002.

5.2 Publications in scientific journals (after review)

5.2.1 T. D. Sideris, G. M. Tsivgoulis, D. G. Vachliotis, P. V. Ioannou, The reactions of triethylamine-activated octasulfur with thioarsinites, L2As-SPh (L = Me, Ph), Bunsen’s cacodyle disulfide,

Me2As(S)-S-AsMe2, and triphenylarsine, Main Group Chemistry, Vol. 8, Issue 3, pp. 163-176, 2009

(DOI:10.1080/10241220903134429) (1 citation).

5.2.2 P. V. Ioannou, D. G. Vachliotis, and T. D. Sideris, The Other Face of Bunsen’s Cacodyl Disulfide.

Me2As(S)-S-AsMe2: The Lewis-base Behaviour Towards Heavy Metal Cations, Zeitschrift für anorganische und allgemeine Chemie, Vol. 635, Issue 2, pp. 329-336, 2009

(DOI:10.1002/zaac.200800391) (1 citation).

5.2.3 P. V. Ioannou, D. G. Vachliotis, and T. D. Sideris, The Electrophilic Character of Bunsen’s Cacodyl Disulfide, Me2As(S)-S-AsMe2, Zeitschrift für anorganische und allgemeine Chemie, Vol. 633, Issue

11-12, pp. 2077-2084, 2007 (DOI:10.1002/zaac.200700279) (2 citations).

5.2.4 T. D. Sideris, P. V. Ioannou, Ascorbic Acid/Iodine and Triphenylphosphine/Iodine as Reducing

Agents for the As(V)=O Group, Phosphorus, Sulfur, and Silicon and the Related Elements, Vol. 181, Issue 5, pp. 1017-1030, 2006 (DOI:10.1080/10426500500272335) (2 citations).

5.2.5 T. D. Sideris, P. V. Ioannou, Studies on the air oxidation of some arsenic(III) compounds,

Phosphorus, Sulfur, and Silicon and the Related Elements, Vol. 181, Issue 4, pp. 751-762, 2006 (DOI: 10.1080/10426500500271402) (5 citations).

http://thesis.ekt.gr/thesisBookReader/id/28491#page/1/mode/2up


6 PROFESSIONAL EXPERIENCE

6.1 Professional activities

2000 – today: INTRACOM S.A., Department of Patras, 254 Panepistimiou Str., Patras, 26443, Greece

(http://www.intracom-telecom.com)

6.2 Work responsibilities

Update/Upgrade Tester

Subroutine programming and testing in OPS programming language

Solution Package Preparation

Test Description Expert

Solution Entry Packaging Requests Handling

Desk Check of Solutions for Upgrade Impacts

Desk Check of solutions requested by the customer and issued by the Design

Maintenance Teams in ASA programming language

Programming and Desk Checking of subroutines in OPS programming language

Focusing on subroutine scripting and testing in OPS programming language

Programming in PLEX and SDL programming languages

Documentation in Edml, Sgml and Word

6.3 Professional societies membership

Member of Association of Greek Chemists (ΕΕΧ – www.eex.gr) (since 2002)

http://www.intracom-telecom.com/

http://www.eex.gr/


7 OTHER

7.1.1 2017-today Member of the amateur theatrical group «RE.FE.NE.» (http://refenepatras.gr/).

Participation in plays.

7.1.2 2015 2nd Prize at the 1st Panhellenic Poetry Competition "Lefkada-Island Poem". Title of the poem: «Στο ακρωτήριο» (“At the Cape”).

Organizers of the Competition: the Cultural Center of the Municipality of Lefkada, the Association of Lecturers of Lefkada and the Society of Greek

Writers.

Subject: "Darkness can not evade the darkness. Only the light can. Hate can not hate hate. Only love can." (Martin Luther King, 1929-1968).

7.1.3 2015 Recitation of poems on Stage, at the ACT Theater in Patras. Two poems were narrated. «Το ψητό» ("The Roast") and an untitled.

7.1.4 2015 The poem «Ο σπόρος» ("The seed") was written specifically for the occasion and was read at the "Feast of the Tree" event at the Kokkinohori Gymnasium of

Panos Ioannou in Cyprus, as well as at the Rizokarpasou High School in

occupied Cyprus.

7.1.5 2014 Publication: «Οι Σκέψεις του Φαροφύλακα» (“The thoughts og the Lighthouse

keeper”), ΜΙΚΡΟ ΠΕΖΟ – Η ΤΕΧΝΗ ΤΟΥ ΔΙΗΓΗΜΑΤΟΣ, Vol. 1 (in Greek).

7.1.6 2000 Publication: «Τα φύλλα και οι καρποί» (The leaves and the fruits), Anthology of

Poetry, University of Patras (in Greek). (ISBN 960-530-046-Χ, ISBN-13 978-960-

530-046-3)

7.1.7 1998-2000 Founder and editor of the magazine “To Passo” (“The Pass”).

7.1.8 1988-1991 Member of the chess team of Cultural Club of Prophetes Elias of Patras, Greece. Participation in local championships of the Prefecture of Achaia.

http://refenepatras.gr/

12 | Analytical memorandum of scientific publications of Theodoros Sideris

PART 2: ANALYTICAL MEMORANDUM OF SCIENTIFIC PUBLICATIONS


8 PRESENTATION OF SCIENTIFIC WORK

8.1 Doctoral Thesis

5.1.1: Sideris T. D., “Redox React ions of Arsenic Compounds and Study of Bunsen’s disulfide, Me4As2S2”, Department of Chemistry, Division B: Physical Chemistry, Inorganic and Nuclear Chemistry, School of Natural

Sciences, University of Patras, Greece, June 2012.

Arsenic compounds, in which arsenic is in the oxidation states As(III) and As(V), have significant biological significance, which is related to the reactivity of these compounds, but also to the mechanisms of oxidation

and reduction reactions from one oxidation state of arsenic to another. In addition, methylated derivatives of

trivalent and pentavalent arsenic, are proven toxic because they interfere in the signal transmission pathways. They participate in redox reactions, they react with molecular oxygen etc., thus having an

influence on important cellular proteins and DNA. Taking into considerarion the above, we studied some arsenic compounds for their redox activity. The compounds selected, contained as substituents of the

arsenic alkyl, phenyl and substituted phenyl groups. In particular, we studied the reduction of nitro- and

aminophenylarsonic acids and triphenylarsine oxide, with the use of the reducing systems ascorbic acid/iodine and triphenyl phosphine/iodine. Thus, there was a comparison in the contribution of the

substituents on the ease of the reduction of As(V) to As(III). Then, we studied the oxidation by air of arsenic compounds, namely esters and thioesters, and thiophenol. The kinetic study of these reactions, lead to

conclusions regarding the influence of the nature of the substituents, and also the influence of the atoms which are bound to As (O or S). Special attention was paid to the study of cacodyl disulfide (Bunsen’s

disulfide):a compound that has not been studied enough. This compound is of special interest because it

contains As in both of its oxidation states, As(III) and As(V). Furthermore, we made a general study of the methods of synthesis of cacodyl disulfide and its chemical behaviour, its stability in the presence of

MeOH/H2O and H2S, and its reaction with H2S. Then, we studied the chemical behaviour of cacodyl disulfide towards heavy metal cations, as well as the chemical behaviour of the products of these reactions. Next step

was to study the chemical behaviour of cacodyl disulfide with nucleophiles of various elements of the 15th

Group of the Periodic Table, as well as of the chemical behaviour of the products of these reactions. Finally, we studied the reactions of triethylamine-activated octasulfur with thioarsinites, cacodyl disulfide, and

triphenylarsine.

8.2 Graduate thesis

5.1.2: Sideris T. D., “Morphological and Physiological Development of the fungus Aspergillus οryzae with the use of new substrates. Use of Aspergillus οryzae on the elaboration of starch containing substrates and the

production of microbial protein”, Department of Chemistry, School of Natural Sciences, University of Patras,

Greece, 2002.

The species of fungus Aspergillus is used in the industry, mainly in the alcoholic fermentation, the food

fermentation in Asian countries, the production of organic acids, vitamins, antibiotics, enzymes, substrate

conversion, composting, and the production of toxins. In addition, it finds applications in biotechnology, microbial protein production, and starch degradation. In this study, mycelial fungus Aspergillus oryzae was

studied. The morphology and physiology of various nutrient starch substrates and temperatures in solid culture were studied. A study of the morphology and physiology in liquid culture was also undertaken. The

pellets resulting from the liquid culture were studied via the use of a bioreactor together with Saccharomyces cerevisiae to produce bioethanol, as well as fish food.

8.3 Publications in scientific journals

5.2.1 T. D. Sideris, G. M. Tsivgoulis, D. G. Vachliotis, P. V. Ioannou, The reactions of triethylamine-activated octasulfur with thioarsinites, L2As-SPh (L = Me, Ph), Bunsen’s cacodyle disulfide, Me2As(S)-S-AsMe2, and triphenylarsine, Main Group Chemistry, Vol. 8, Issue 3, pp. 163-176, 2009

(DOI:10.1080/10241220903134429).

The reactions of L2As‒SPh (L = Me or Ph) with varying amounts of octasulfur, activated by triethylamine,

aiming at the preparation of L2As‒S‒AsL2 and L2As(S)‒S‒AsL2 were slow and very complex in the sense that the composition in solution changed on work up. Generally, the disulfide L2As(S)‒S‒AsL2 was formed

admixed with L2As‒S‒NEt3 + and L2As‒S−. The disulfide Ph2As(S) ‒S‒AsPh2 was not stable during


chromatography giving sulfur (S8) and Ph2As‒S‒AsPh2 which was autoxidized to Ph2AsO2H·Ph2As(S)OH. Bunsen's cacodyl disulfide, Me2As(S)‒S‒AsMe2, was electrophilic toward activated octasulfur reacting at As˭S

sulfur. Triphenylarsine was oxidized to pure triphenylarsine sulfide in boiling ethanol by octasulfur in the presence of a catalytic amount of triethylamine in short time and with excellent yields.

5.2.2: P. V. Ioannou, D. G. Vachliotis, and T. D. Sideris, The Other Face of Bunsen’s Cacodyl Disulfide. Me2As(S)-S-AsMe2: The Lewis-base Behaviour Towards Heavy Metal Cations, Zeitschrift für anorganische

und allgemeine Chemie, Vol. 635, Issue 2, pp. 329-336, 2009 (DOI:10.1002/zaac.200800391).

The reaction of Bunsen’s cacodyl disulfide, Me2As(S)-S-AsMe2, with heavy metal cations in methanol produces insoluble salts (complexes) of dimethyldithioarsinic acid, Me2AsS2H, and dimethyl arsenium ion,

Me2As:+. This arsenium ion prefers to react with Me2As(S)-S-AsMe2, when in excess, compared to AcO- or MeOH/H2O and it is also reactive towards sulfur (Sx, x = 1-8) producing the stabilized dimethylarsino

sulfenium cation, Me2As-..

..S +↔Me2 A s

=..

..S . The complexes (Me2AsS2)xM (x = 1 or 2) are unstable in the

presence of their own heavy metal cations decomposing to colored solids. In an attempt to prepare salts of

Me2AsSH, the reactions of (Me2AsS2)xM with triphenylphosphine and trimethyl phosphite gave the metal

sulphide and Me2As-S-AsMe2 instead.

5.2.3: P. V. Ioannou, D. G. Vachliotis, and T. D. Sideris, The Electrophilic Character of Bunsen’s Cacodyl Disulfide, Me2As(S)-S-AsMe2, Zeitschrift für anorganische und allgemeine Chemie, Vol. 633, Issue 11-12, pp.

2077-2084, 2007 (DOI:10.1002/zaac.200700279).

The behaviour of Bunsen’s cacodyl disulfide, Me2As(S)-S-AsMe2 towards Lewis bases of group 15 of the

Periodic Table was studied mainly by 1H NMR. While Ph3N did not react, 4-dimethylaminopyridine and triethylamine isomerized the disulphide to Me2AsSSAsMe2. Ph3P, (PhO)3P, (MeO)3P, (EtO)3P and Ph3As

desulfurized the disulfide to Me2AsSAsMe2. (PhS)3P also desulfurized the disulfide but Me2As-S-SPh was also produced. Me2As-SSPh was the main product with (PhS)3As nucleophile. In most sys tems, cationic and

anionic species were formed. The results are best interpreted by initial attack of the nucleophile on the electrophilic As=S sulfur.

5.2.4: T. D. Sideris, P. V. Ioannou, Ascorbic Acid/Iodine and Triphenylphosphine/Iodine as Reducing Agents for the As(V)=O Group, Phosphorus, Sulfur, and Silicon and the Related Elements, Vol. 181, Issue 5, pp.

1017-1030, 2006 (DOI:10.1080/10426500500272335).

The scope of ascorbic acid/iodine and triphenylphosphine/iodine in methanol for the direct reduction of arsenic(V) compounds having the As=O group has been investigated. Ascorbic acid/iodine reduces arsonic

acids, diphenylarsinic acid (but not dimethylarsinic acid), and triphenylarsine oxide. The rates of reduction

depend on the electronic effects of the ligands bound to arsenic and on the hydrogen-bonding strength of

the species, when present.When the As(V) compound has an –NH2 or an 3

NH group, the reduction product

reacts with a ketonic form of dehydroascorbic acid, giving condensation product(s). Triphenylphosphine /

iodine reduced slowly the zwitterionic o-aminophenylarsonic acid but reduced faster the hydrochloric acid salt of the same acid. It reduced dimethylarsinic acid as well because the powerful electron-withdrawing

Ph3P+ coordinated to As=O seems to outweigh the electronic and hydrogen bonding effects.

5.2.5: T. D. Sideris, P. V. Ioannou, Studies on the air oxidation of some arsenic(III) compounds, Phosphorus, Sulfur, and Silicon and the Related Elements, Vol. 181, Issue 4, pp. 751-762, 2006 ( DOI:

10.1080/10426500500271402).

The air oxidation of As(III) oxides [(PhAsO)x and Ph2As-O-AsPh2] and thioesters [Ph-As(SPh)2, Ph2As-SPh

Me-As(SPh)2, Me2As-SPh], in chloroform and in methanol was studied. The air oxidation in chloroform was faster probably because the solubility of dioxygen is greater than in methanol, and it is favored by the

electron-withdrawing phenyl groups bound to As(III). The products obtained were the arsonic or arsinic acids and diphenyl disulfide. In one case, diphenyl disulphide and thiophenol were produced. The results can

be rationalized by assuming first hydrolysis of the As(III) compounds to arsonous or arsinous acids followed

by their oxidation to arsonic and arsinic acids, which should involve the binding of dioxygen to As(III). The other hypothesis assumes first the binding of dioxygen to As(III) of these oxides and thioesters followed by

the decomposition of the adducts. The binding of the ground state dioxygen to As(III) may have biochemical implications for toxicity or chemotherapy of arsenic(III) compounds.


9 CITATIONS

9.1 Brief presentation of citations

In this section the citations of the research work of T. D. Sideris are given, according to three known data

bases: Scopus, Google Scholar and Researchgate. Table 1 lists the number of the citations from other researchers (excluding self-citations and those mentioned by his co-authors) and the corresponding h-index,

as provided from each of the data bases, from all data bases or from all sources available. Respectively, Table 2 includes all the citations including the self-citations or his collaborators’ ones and the corresponding

h-index.

Table 1: Number of others’ citations and corresponding h-indices

Scopus Google Scholar

Researchgate Scopus, Google Scholar

or Researchgate Every source

Number of articles with others’ citations 5 5 3 5 5

Number of others’ citations 10 9 6 11 11

h-index 2 2 1 2 2

Table 2: Number of total citations and corresponding h-indices

Scopus1 Google Scholar2

Researchgate3 Scopus, Google Scholar

or Researchgate Every source

Number of articles with citations 5 5 5 5 5

Number of total citations 44 43 36 45 45

h-index 4 4 4 4 4

9.2 Number of citations per publication

Table 3 provides the number of citations per article excluding the self-citations or those from her co-authors.

The numbering of section 5.2 is used. The articles with no citations are not included in the Table.

Table 3: Number of others’ citations per article

No. Article

Number of hetero-citations

Scopus Google Scholar Researchgate Scopus, Google Scholar or

Researchgate Every source

1 5.2.1 1 1 1 1

2 5.2.2 1 1 1 1

3 5.2.3 2 2 1 2 2

4 5.2.4 1 1 1 2 2

5 5.2.5 5 4 4 5 5

Respectively, Table 4 gives the number of total citations per article. The numbering of section 5.2 is used again.

Table 4: Number of total citations per article

No. Article

Number of total citations

Scopus Google Scholar Researchgate Scopus, Google Scholar or

Researchgate Every source

1 5.2.1 3 3 2 3 3

2 5.2.2 8 8 5 8 8

3 5.2.3 16 16 13 16 16

4 5.2.4 4 4 4 5 5

5 5.2.5 13 12 12 13 13

9.3 Charts of h-index

In the following Figures, charts of h-index are given referring to the citations of other researchers, excluding the self-citations or the ones by his co-authors.

1 https://www.scopus.com/authid/detail.uri?authorId=8564801300 2 https://scholar.google.gr/citations?user=jWACNzIAAAAJ&hl=en 3 https://www.researchgate.net/profile/Isabella_Vassilopoulou/citations?sorting=citationCount&page=1

https://www.scopus.com/authid/detail.uri?authorId=8564801300

https://scholar.google.gr/citations?user=jWACNzIAAAAJ&hl=en

https://www.researchgate.net/profile/Isabella_Vassilopoulou/citations?sorting=citationCount&page=1


0

1

2

3

4

5

6

1 2 3 4 5

Num

ber

of

oth

es'

citations

Articles

Scopus h-index = 2

0

1

2

3

4

5

6

1 2 3 4 5

Num

ber

of

oth

es'

citations

Articles

Google Scholar h-index = 2

0

1

2

3

4

5

6

1 2 3 4 5

Num

ber

of

oth

es'

citations

Articles

Researchgate h-index = 1


0

1

2

3

4

5

6

1 2 3 4 5

Num

ber

of

oth

es'

citations

Articles

Scopus, Google Scholar or Researchgate h-index = 2

0

1

2

3

4

5

6

1 2 3 4 5

Num

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of

oth

es'

citations

Articles

Every source h-index = 2

9.4 Detailed presentation of citations per publication

A detailed presentation of citations per publication follows. With black letters the citations excluding self-citations and citations from co-authors are presented, while with grey letters the self-citations or citations

from the co-authors. In parentheses, the data base is given, in which each citation is mentioned.

5.2.1: T. D. Sideris, G. M. Tsivgoulis, D. G. Vachliotis, P. V. Ioannou, The reactions of triethylamine-activated octasulfur with thioarsinites, L2As-SPh (L = Me, Ph), Bunsen’s cacodyle disulfide, Me2As(S)-S-AsMe2, and

triphenylarsine, Main Group Chemistry, Vol. 8, Issue 3, pp. 163-176, 2009.

9.4.1 Haiduc, I., “Dithioarsinates revisited. A mini-review”, Studia Universitatis Babes-Bolyai Chemia

61(3TOM1), pp. 9-18, 2016. (Scopus, Google Scholar)

9.4.2 Ioannou, P. V. and Vachliotis, D. G., “The Electrophilic Character of Bunsen's Cacodyl Disulfide,

Me2As(S)-S-AsMe2, Towards Some Nucleophiles of Groups 15 and 16”, Zeitschrift fur Anorganische

und Allgemeine Chemie, 641(3-4), pp. 710-714, 2015. (Scopus, Google Scholar, Researchgate)

9.4.3 Tsivgoulis, G. M., Kordopati, G. G., Vachliotis, D. G. and Ioannou, P. V., “The Reaction of Diethylthiophosphinyl Iodide, Et2P(S)I, with Nucleophiles”, Zeitschrift fur Anorganische und

Allgemeine Chemie, 643(16), pp. 1075-1081, 2017. (Scopus, Google Scholar, Researchgate)

5.2.2: P. V. Ioannou, D. G. Vachliotis, and T. D. Sideris, The Other Face of Bunsen’s Cacodyl Disulfide. Me2As(S)-S-AsMe2: The Lewis-base Behaviour Towards Heavy Metal Cations, Zeitschrift für anorganische

und allgemeine Chemie, Vol. 635, Issue 2, pp. 329-336, 2009.

9.4.4 Haiduc, I., “Dithioarsinates revisited. A mini-review”, Studia Universitatis Babes-Bolyai Chemia

61(3TOM1), pp. 9-18, 2016. (Scopus, Google Scholar)


9.4.5 Ioannou, P. V., Vachliotis, D. G. and Chrissanthopoulos, A., “The Reaction of Bunsen's Cacodyl Disulfide, Me2As(S)-S-AsMe2, with Iodine: Preparation and Properties of Dimethylarsinosulfenyl

Iodide, Me2As-S-I”, Zeitschrift fur Anorganische und Allgemeine Chemie, 641(7), pp. 1340-1346, 2015. (Scopus, Google Scholar, Researchgate)

9.4.6 Ioannou, P. V. and Vachliotis, D. G., “The Electrophilic Character of Bunsen's Cacodyl Disulfide,

Me2As(S)-S-AsMe2, Towards Some Nucleophiles of Groups 15 and 16”, Zeitschrift fur Anorganische

und Allgemeine Chemie, 641(3-4), pp. 710-714, 2015. (Scopus, Google Scholar, Researchgate)

9.4.7 Ioannou, P. V., “The reactions of Me2AsS2Na·2H2O and Me2As(S)-S-AsMe2 with Cu(II) and Tl(III):

Reaction products and probable mechanisms”, Main Group Chemistry, 13(3), pp. 243-250, 2014.

(Scopus, Google Scholar)

9.4.8 Ioannou, P. V. and Vachliotis, D. G., “Tris(dimethyldithioarsinato) complexes of group 15 metals,

M(S2AsMe2)3 [M = (As), Sb, Bi]”, Main Group Chemistry, 11(4), pp. 267-273, 2012. (Scopus, Google

Scholar, Researchgate)

9.4.9 Ioannou, P. V. and Vachliotis, D. G., “Tris(dimethyldithioarsinato) complexes of group 13 metals, M(S2AsMe2)3 [M = Al, Ga, In, Tl]”, Main Group Chemistry, 11(3), pp. 235-244, 2012. (Scopus,

Google Scholar, Researchgate)

9.4.10 Ioannou, P. V., Vachliotis, D. G., Nastopoulos, V. and Tasiopoulos, A.J., “Preparation and properties of sodium dimethyldithioarsinate dihydrate, Me2AsS2Na-2H2O and palladium(ii)

dimethyldithioarsinate, (Me2AsS2)2Pd”, Zeitschrift fur Anorganische und Allgemeine Chemie, 635(13-

14), pp. 2203-2209, 2009. (Scopus, Google Scholar, Researchgate)

9.4.11 Ioannou, P. V., Tsivgoulis, G. M. and Vachliotis, D. G., “The lewis-base behavior of Bunsen's cacodyl

disulfide, Me2As(S)-S-AsMe2, toward molecular halides of group 13]”, Main Group Chemistry, 8(3), pp. 151-161, 2009. (Scopus, Google Scholar)

5.2.3: P. V. Ioannou, D. G. Vachliotis, and T. D. Sideris, The Electrophilic Character of Bunsen’s Cacodyl Disulfide, Me2As(S)-S-AsMe2, Zeitschrift für anorganische und allgemeine Chemie, Vol. 633, Issue 11-12, pp.

2077-2084, 2007.

9.4.12 Haiduc, I., “Dithioarsinates revisited. A mini-review”, Studia Universitatis Babes-Bolyai Chemia 61(3TOM1), pp. 9-18, 2016. (Scopus, Google Scholar)

9.4.13 Shihada, A.F., Al-Aqarbeh, M., Weller, F. and Massa, W. “Synthesis, crystal structures and spectroscopic studies of dimorphic [bu2sn(o2asme2)2] and the novel dimethylthioarsinate

[(me2snosasme2)2o]2”, Zeitschrift fur Anorganische und Allgemeine Chemie, 635(9-10), pp. 1384-1390, 2009. (Scopus, Google Scholar, Researchgate)

9.4.14 Tsivgoulis, G. M., Kordopati, G. G., Vachliotis, D. G. and Ioannou, P. V., “The Reaction of

Diethylthiophosphinyl Iodide, Et2P(S)I, with Nucleophiles”, Zeitschrift fur Anorganische und

Allgemeine Chemie, 643(16), pp. 1075-1081, 2017. (Scopus, Google Scholar)

9.4.15 Ioannou, P. V., Vachliotis, D. G. and Chrissanthopoulos, A., “The Reaction of Bunsen's Cacodyl

Disulfide, Me2As(S)-S-AsMe2, with Iodine: Preparation and Properties of Dimethylarsinosulfenyl Iodide, Me2As-S-I”, Zeitschrift fur Anorganische und Allgemeine Chemie, 641(7), pp. 1340-1346,

2015. (Scopus, Google Scholar)

9.4.16 Ioannou, P. V. and Vachliotis, D. G., “The Electrophilic Character of Bunsen's Cacodyl Disulfide, Me2As(S)-S-AsMe2, Towards Some Nucleophiles of Groups 15 and 16”, Zeitschrift fur Anorganische

und Allgemeine Chemie, 641(3-4), pp. 710-714, 2015. (Scopus, Google Scholar)

9.4.17 Ioannou, P. V., “The reactions of Me2AsS2Na·2H2O and Me2As(S)-S-AsMe2 with Cu(II) and Tl(III):

Reaction products and probable mechanisms”, Main Group Chemistry, 13(3), pp. 243-250, 2014. (Scopus, Google Scholar)

9.4.18 Papatriantafyllopoulou, C., Nastopoulos, V. and Ioannou, P.V., “The structure of

bis(dimethyldithioarsinato)gallium(III) sulfide [(Me2AsS2)2Ga]2S·0.75H2O: A hydrolysis product of (Me2AsS2)3Ga that contains a bridging sulfide and both pendant and bridging dimethyldithioarsinato


ligands”, Zeitschrift fur Anorganische und Allgemeine Chemie, 640(8-9), pp. 1654-1657, 2014. (Scopus, Google Scholar)

9.4.19 Ioannou, P. V. and Moushi, E.E., “The crystal structure of tris (4-aminophenylthio) arsine, As(SC6H4-4-NH2)3”, Main Group Chemistry, 12(4), pp. 285-292, 2013. (Scopus, Google Scholar,

Researchgate)

9.4.20 Ioannou, P. V., “Dioxygen activation by Bi(III) compounds: Air oxidation of thiols to their disulfides”, Main Group Chemistry, 12(2), pp. 125-138, 2013. (Scopus, Google Scholar)

9.4.21 Ioannou, P. V. and Vachliotis, D. G., “Tris(dimethyldithioarsinato) complexes of group 15 metals, M(S2AsMe2)3 [M = (As), Sb, Bi]”, Main Group Chemistry, 11(4), pp. 267-273, 2012. (Scopus, Google


9.4.22 Ioannou, P. V. and Vachliotis, D. G., “Tris(dimethyldithioarsinato) complexes of group 13 metals, M(S2AsMe2)3 [M = Al, Ga, In, Tl]”, Main Group Chemistry, 11(3), pp. 235-244, 2012. (Scopus,


9.4.23 Ioannou, P. V., “Dimethylphosphinato and dimethylarsinato complexes of Sb(III) and Bi(III) and

their chemistry”, Monatshefte fur Chemie, 143(10), pp. 1349-1356, 2012. (Scopus, Google Scholar, Researchgate)

9.4.24 Ioannou, P. V., Vachliotis, D. G., Nastopoulos, V. and Tasiopoulos, A.J., “Preparation and properties of sodium dimethyldithioarsinate dihydrate, Me2AsS2Na-2H2O and palladium(ii)

dimethyldithioarsinate, (Me2AsS2)2Pd”, Zeitschrift fur Anorganische und Allgemeine Chemie, 635(13-

14), pp. 2203-2209, 2009. (Scopus, Google Scholar, Researchgate)

9.4.25 Ioannou, P. V., Tsivgoulis, G. M. and Vachliotis, D. G., “The lewis-base behavior of Bunsen's cacodyl

disulfide, Me2As(S)-S-AsMe2, toward molecular halides of group 13]”, Main Group Chemistry, 8(3), pp. 151-161, 2009. (Scopus, Google Scholar, Researchgate)

9.4.26 Sideris, T. D., Tsivgoulis, G. M., Vachliotis, D. G. and Ioannou, P. V. “The reactions of triethylamine-activated octasulfur with thioarsinites, L2As-SPh (L = Me, Ph), Bunsen’s cacodyle disulfide,

Me2As(S)-S-AsMe2, and triphenylarsine”, Main Group Chemistry, 8(3), pp. 163-176, 2009. (Scopus,


9.4.27 Ioannou, P. V., Vachliotis, D. G. and Sideris, T. D., “The Other Face of Bunsen’s Cacodyl Disulfide.

Me2As(S)-S-AsMe2: The Lewis-base Behaviour Towards Heavy Metal Cations”, Zeitschrift für anorganische und allgemeine Chemie, 635(2), pp. 329-336, 2009. (Scopus, Google Scholar,

Researchgate)

5.2.4: T. D. Sideris, P. V. Ioannou, Ascorbic Acid/Iodine and Triphenylphosphine/Iodine as Reducing Agents for the As(V)=O Group, Phosphorus, Sulfur, and Silicon and the Related Elements, Vol. 181, Issue 5, pp.

1017-1030, 2006.

9.4.28 Dormoy, J. R., Castro, B. and Bobinski, T. P., “Triphenylphosphine Dibromide”, Encyclopedia of

Reagents for Organic Synthesis, 2018. (Google Scholar)

9.4.29 Allen, D. W., “Phosphines and related P-C-bonded compounds”, Organophosphorus Chemistry, 37,

pp. 13-53, 2008. (Scopus, Researchgate)

9.4.30 Ioannou, P. V., “Arsonolipids, pseudo arsonolipids, arsinolipids and arsonoliposomes: Preparations, biophysical, biochemical and biological aspects”, Main Group Chemistry, 17(2), pp. 111-132, 2018.

(Scopus, Google Scholar, Researchgate)

9.4.31 Ioannou, P. V. and Tsivgoulis, G. M., “The reduction of p-arsanilic acid (p-aminophenylarsonic acid)

to its arsonous acid or arsine oxide: A case study”, Main Group Chemistry, 14(3), pp. 237-253,

2015. (Scopus, Google Scholar, Researchgate)

9.4.32 Ioannou, P. V. and Tsivgoulis, G. M., “Thiolates of arsenic(III), antimony(III), and bismuth(III) with

dl-α-dihydrolipoic acid”, Monatshefte fur Chemie, 145(6), pp. 897-909, 2014. (Scopus, Google Scholar, Researchgate)


5.2.5: T. D. Sideris, P. V. Ioannou, Studies on the air oxidation of some arsenic(III) compounds,

Phosphorus, Sulfur, and Silicon and the Related Elements, Vol. 181, Issue 4, pp. 751-762, 2006.

9.4.33 Taneichi, Y., Shimada, K. and Korenaga, T., “A convenient synthesis of isotellurazoles via deoxygenation of isotellurazole Te-oxide oligomers by using a combination of Ph3P/I2”,

Heterocycles, 94(10), pp. 1931-1939, 2017. (Scopus)

9.4.34 Gregson, A.M., Wales, S.M., Bailey, S.J. and Keller, P.A., “Arsenous chloride-free synthesis of cyclic tertiary organoarsines from arylarsine oxides and di-Grignard reagents”, Journal of Organometallic

Chemistry, 785, pp. 77-83, 2015. (Scopus, Google Scholar, Researchgate)

9.4.35 Sárosi, I., Silaghi-Dumitrescu, L. and Hey-Hawkins, E., “Synthesis and coordination chemistry of

thiophenol-based heterodonor ligands containing P,S, as,S and P,SAs donor atoms”, Macedonian Journal of Chemistry and Chemical Engineering, 32(1), pp. 1-24, 2013. (Scopus, Google Scholar,

Researchgate)

9.4.36 Chen, J., Murafuji, T. and Tsunashima, R., “Insertion of benzyne into a Bi-S bond: A new synthetic route to ortho-functionalized bismuthanes and its application to the synthesis of dibenzothiophene”,

Organometallics, 30(17), pp. 4532-4538, 2011. (Scopus, Google Scholar, Researchgate)

9.4.37 Gunawan, S., Nichol, G.S., Chappeta, S., Dietrich, J. and Hulme, C., “Concise preparation of novel

tricyclic chemotypes: Fused hydantoin-benzodiazepines”, Tetrahedron Letters, 51(36), pp. 4689-

4692, 2010. (Scopus, Google Scholar, Researchgate)

9.4.38 Ioannou, P. V. and Tsivgoulis, G. M., “The reaction of dithioerythritol and dithiothreitol with As(III),

Sb(III), and Bi(III) compounds”, Monatshefte fur Chemie, 146(2), pp. 249-257, 2015. (Scopus, Google Scholar, Researchgate)

9.4.39 Ioannou, P. V. and Tsivgoulis, G. M., “The reduction of p-arsanilic acid (p-aminophenylarsonic acid) to its arsonous acid or arsine oxide: A case study”, Main Group Chemistry, 14(3), pp. 237-253,

2015. (Scopus, Google Scholar, Researchgate)

9.4.40 Ioannou, P. V. and Tsivgoulis, G. M., “Thiolates of arsenic(III), antimony(III), and bismuth(III) with dl-α-dihydrolipoic acid”, Monatshefte fur Chemie, 145(6), pp. 897-909, 2014. (Scopus, Google


9.4.41 Tsivgoulis, G. M. and Ioannou, P. V., “The nucleophilicity of M(SPh)3 (M=P, As) and PhAs(SPh)2

towards carboxylic acid anhydrides”, Main Group Chemistry, 10(1), pp. 51-62, 2011. (Scopus,


9.4.42 Sideris, T. D., Tsivgoulis, G. M., Vachliotis, D. G. and Ioannou, P. V. “The reactions of triethylamine-

activated octasulfur with thioarsinites, L2As-SPh (L = Me, Ph), Bunsen’s cacodyle disulfide, Me2As(S)-S-AsMe2, and triphenylarsine”, Main Group Chemistry, 8(3), pp. 163-176, 2009. (Scopus,


9.4.43 Ioannou, P. V., Vachliotis, D. G. and Sideris, T. D., “The Other Face of Bunsen’s Cacodyl Disulfide. Me2As(S)-S-AsMe2: The Lewis-base Behaviour Towards Heavy Metal Cations”, Zeitschrift für

anorganische und allgemeine Chemie, 635(2), pp. 329-336, 2009. (Scopus, Google Scholar, Researchgate)

9.4.44 Ioannou, P. V., Vachliotis, D. G. and Sideris, T. D., “The Electrophilic Character of Bunsen’s Cacodyl Disulfide, Me2As(S)-S-AsMe2”, Zeitschrift für anorganische und allgemeine Chemie, 633(11-12), pp.

2077-2084, 2007. (Scopus, Google Scholar, Researchgate)

9.4.45 Sideris, T. D. and Ioannou, P. V., “Ascorbic Acid/Iodine and Triphenylphosphine/Iodine as Reducing Agents for the As(V)=O Group”, Phosphorus, Sulfur, and Silicon and the Related Elements, 181(5),

pp. 1017-1030, 2006. (Scopus, Google Scholar, Researchgate)

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